The complex interplay between ligand binding and conformational structure of the folate binding protein (folate receptor): biological perspectives

Jan Holm; Susanne Wrang Bruun; Steen I. Hansen

doi:10.1016/j.bbapap.2015.06.009

The complex interplay between ligand binding and conformational structure of the folate binding protein (folate receptor): biological perspectives

Jan Holm, Susanne Wrang Bruun, Steen I. Hansen

Food Analytics and Biotechnology

6 Citations (Scopus)

Abstract

Abstract This review analyzes how interplay between folate binding and changes in folate binding protein (FBP) conformation/self-association affects the biological function of FBP. Concentration-dependent, reversible self-association of hydrophobic apo-FBP at pI = 7.4 is associated with decreased affinity for folate, probably due to shielding of binding sites between interacting hydrophobic patches. Titration with folate removes apo-monomers, favoring dissociation of self-associated apo-FBP into apo-monomers. Folate anchors to FBP through a network of hydrogen bonds and hydrophobic interactions, and the binding induces a conformational change with formation of hydrophilic and stable holo-FBP. Holo-FBP exhibits a ligand-mediated concentration-dependent self-association into multimers of great thermal and chemical stability due to strong intermolecular forces. Both ligand and FBP are thus protected against biological/physicochemical decomposition. In biological fluids with low FBP concentrations, e.g., saliva, semen and plasma, hydrophobic apo-monomers and hydrophilic holo-monomers associate into stable asymmetrical complexes with aberrant binding kinetics unless detergents, e.g., cholesterol or phospholipids are present.

Original language	English
Journal	B B A - Proteins and Proteomics
Volume	1854
Issue number	10, Part A
Pages (from-to)	1249–1259
Number of pages	11
ISSN	1570-9639
DOIs	https://doi.org/10.1016/j.bbapap.2015.06.009
Publication status	Published - 18 Jul 2015

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The complex interplay between ligand binding and conformational structure of the folate binding protein (folate receptor) : biological perspectives. / Holm, Jan; Bruun, Susanne Wrang; Hansen, Steen I.

In: B B A - Proteins and Proteomics, Vol. 1854, No. 10, Part A, 18.07.2015, p. 1249–1259.

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title = "The complex interplay between ligand binding and conformational structure of the folate binding protein (folate receptor): biological perspectives",

abstract = "Abstract This review analyzes how interplay between folate binding and changes in folate binding protein (FBP) conformation/self-association affects the biological function of FBP. Concentration-dependent, reversible self-association of hydrophobic apo-FBP at pI = 7.4 is associated with decreased affinity for folate, probably due to shielding of binding sites between interacting hydrophobic patches. Titration with folate removes apo-monomers, favoring dissociation of self-associated apo-FBP into apo-monomers. Folate anchors to FBP through a network of hydrogen bonds and hydrophobic interactions, and the binding induces a conformational change with formation of hydrophilic and stable holo-FBP. Holo-FBP exhibits a ligand-mediated concentration-dependent self-association into multimers of great thermal and chemical stability due to strong intermolecular forces. Both ligand and FBP are thus protected against biological/physicochemical decomposition. In biological fluids with low FBP concentrations, e.g., saliva, semen and plasma, hydrophobic apo-monomers and hydrophilic holo-monomers associate into stable asymmetrical complexes with aberrant binding kinetics unless detergents, e.g., cholesterol or phospholipids are present.",

author = "Jan Holm and Bruun, {Susanne Wrang} and Hansen, {Steen I.}",

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T2 - biological perspectives

AU - Holm, Jan

AU - Bruun, Susanne Wrang

AU - Hansen, Steen I.

PY - 2015/7/18

Y1 - 2015/7/18

N2 - Abstract This review analyzes how interplay between folate binding and changes in folate binding protein (FBP) conformation/self-association affects the biological function of FBP. Concentration-dependent, reversible self-association of hydrophobic apo-FBP at pI = 7.4 is associated with decreased affinity for folate, probably due to shielding of binding sites between interacting hydrophobic patches. Titration with folate removes apo-monomers, favoring dissociation of self-associated apo-FBP into apo-monomers. Folate anchors to FBP through a network of hydrogen bonds and hydrophobic interactions, and the binding induces a conformational change with formation of hydrophilic and stable holo-FBP. Holo-FBP exhibits a ligand-mediated concentration-dependent self-association into multimers of great thermal and chemical stability due to strong intermolecular forces. Both ligand and FBP are thus protected against biological/physicochemical decomposition. In biological fluids with low FBP concentrations, e.g., saliva, semen and plasma, hydrophobic apo-monomers and hydrophilic holo-monomers associate into stable asymmetrical complexes with aberrant binding kinetics unless detergents, e.g., cholesterol or phospholipids are present.

AB - Abstract This review analyzes how interplay between folate binding and changes in folate binding protein (FBP) conformation/self-association affects the biological function of FBP. Concentration-dependent, reversible self-association of hydrophobic apo-FBP at pI = 7.4 is associated with decreased affinity for folate, probably due to shielding of binding sites between interacting hydrophobic patches. Titration with folate removes apo-monomers, favoring dissociation of self-associated apo-FBP into apo-monomers. Folate anchors to FBP through a network of hydrogen bonds and hydrophobic interactions, and the binding induces a conformational change with formation of hydrophilic and stable holo-FBP. Holo-FBP exhibits a ligand-mediated concentration-dependent self-association into multimers of great thermal and chemical stability due to strong intermolecular forces. Both ligand and FBP are thus protected against biological/physicochemical decomposition. In biological fluids with low FBP concentrations, e.g., saliva, semen and plasma, hydrophobic apo-monomers and hydrophilic holo-monomers associate into stable asymmetrical complexes with aberrant binding kinetics unless detergents, e.g., cholesterol or phospholipids are present.

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DO - 10.1016/j.bbapap.2015.06.009

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SN - 1570-9639

VL - 1854

SP - 1249

EP - 1259

JO - B B A - Proteins and Proteomics

JF - B B A - Proteins and Proteomics

IS - 10, Part A

ER -

The complex interplay between ligand binding and conformational structure of the folate binding protein (folate receptor): biological perspectives

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